INNOVATION + INTEGRATION:
REDEFINING BATTERIES

CellPowered^® system achieves an exceptional 99% efficiency, setting a new benchmark in power conversion. This unprecedented performance is made possible through a series of advanced design innovations and cutting-edge integration techniques.
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By leveraging next-generation power electronics, optimized energy flow management, and novel control strategies, CellPowered minimises energy losses while maximising system reliability and performance.

This breakthrough significantly reduces overall system costs, making high-efficiency propulsion and energy solutions more accessible.

The exceptional performance enables a highly compact and lightweight design, which in turn results in a simplified and efficient cooling system. By minimising thermal losses and optimizing energy flow, CellPowered delivers unmatched efficiency, reliability, and cost-effectiveness in a streamlined package.

CellPowered^® introduces a breakthrough in power conversion, integrating bi-directional energy flow with the ability to efficiently convert DC to AC, AC to DC, and DC to DC within a single system. This eliminates the need for separate traction inverters, onboard chargers, and DC-DC converters, dramatically reducing hardware costs, system complexity, and installation effort.

Traditionally, electric and hybrid systems require multiple specialized power converters for different functions—motoring, regenerative braking, and ultra-fast charging—each adding cost, weight, and inefficiencies. CellPowered replaces this fragmented approach with a single, high-performance unit that seamlessly adapts to different operational modes, optimizing energy transfer in real-time.

This all-in-one architecture not only reduces manufacturing and maintenance costs but also shrinks system size and weight, allowing for a more compact, lightweight, and efficient cooling system. By streamlining power conversion into a single, highly efficient platform, CellPowered delivers unmatched cost savings, system reliability, and superior performance, making it the ideal solution for next-generation electric propulsion and energy storage applications.

CellPowered^® features an innovative active battery balancing system that operates inherently without the need for sensors or complex feedback loops.

Unlike conventional balancing methods that rely on external monitoring, this approach redistributes energy dynamically within the battery pack, ensuring that all cells remain at an optimal state of charge. This maximizes energy utilization, enabling a longer driving range with the same battery capacity, ultimately reducing battery size requirements and overall system costs.One of the major challenges in battery systems is the presence of weaker cells—those that degrade faster or struggle to hold charge.

CellPowered’s fault-tolerant design naturally compensates for these cells, maintaining pack performance and preventing localized failures from compromising the entire system. This extends battery life, enhances reliability, and reduces maintenance costs.

By ensuring uniform charge distribution and improved thermal stability, CellPowered not only increases efficiency but also enhances safety, power delivery, and overall system longevity. With a fully optimized and self-regulating energy management system, this technology sets a new standard for cost-effective, high-performance battery solutions in electric propulsion.

CellPowered^® integrates cutting-edge AI-driven control and digital twin technology, enabling seamless real-time optimization across various operating conditions.

The advanced real-time controller features a closed-loop system that dynamically adapts to both normal and fault conditions, ensuring maximum efficiency, reliability, and safety. With digital twin integration, users gain a comprehensive, real-time visualization of system performance, allowing for precise diagnostics, predictive maintenance, and continuous optimization. This ensures that every component operates at its peak, reducing downtime and extending lifespan.

The AI-enhanced control system automatically detects anomalies, adjusts power flow, and ensures fault tolerance, providing unmatched operational intelligence and efficiency.By leveraging smart automation and predictive analytics, CellPowered delivers next-generation energy management, making power conversion systems more resilient, adaptable, and cost-effective than ever before.

‍CellPowered^® is designed to minimises maintenance and maximize battery lifetime through its innovative architecture, ensuring that all battery cells experience uniform operating conditions.

One of the primary causes of reduced battery lifespan in traditional systems is uneven aging, where certain cells degrade faster due to inconsistent charge and discharge cycles. CellPowered’s intelligent balancing mechanism ensures that all cells operate under similar conditions, preventing premature degradation of specific cells and extending the overall lifespan of the battery pack.

Beyond uniform aging, CellPowered’s modular design allows for seamless characterization and maintenance at the battery cell level. Instead of replacing an entire battery pack when individual cells degrade, faulty or lower-capacity cell groups can be easily identified and replaced, keeping the pack in operation for a significantly longer time.

This approach reduces maintenance costs, enhances reliability, and ensures long-term performance, making it an ideal solution for high-demand applications.By extending battery usability and reducing waste, CellPowered contributes to a more sustainable, circular economy. The ability to replace specific cell groups instead of full packs reduces raw material consumption, minimises electronic waste, and optimizes resource utilisation, making electric propulsion not only more cost-effective but also environmentally responsible.